atomic force microscopy (afm) integrated with · atomic force microscopy (afm) integrated with...
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Atomic Force Microscopy (AFM) integrated withFriction Force Microscopy (FFM) and Nano Indentation
� XE7 Atomic Force Microscope is
capable of scanning sample for
lowest noise and gives best
resolution image.
� This system works with new
generated software techniques,
such as XEP (Data Analysis and
O p t i c a l V i e w ) , X E I ( I m a g e
P r o c e s s i n g ) a n d X E L
(Lithography Analysis).
� The system includes the Contact
M o d e , N o n C o nta c t M o d e ,
L a t e r a l / F r i c t i o n F o r c e
Microscopy Mode, Magnetic
F o r c e M i c r o s c o p y M o d e ,
Lithography Mode, and Nano
I n d e n t a t i o n M o d e ( N a n o
Indentor up to 20 mN).
� The resolution of the system is
1.5 nm (Close Loop) and < 0.01 nm (Open Loop). Sample size is 100 ×
100 × 20 mm.
MicroCal iTC System200
Capabilities
Location
ContactProf. Arvind Kumar
User Charge
Tribology & Surface Engineering
Laboratory, NL - 1
Dept. of Mechanical Engg
Rs. 1000 per slot for normal tip
Rs. 2000 per sample for nano
indentation/MFM/Lithography/FFM(Service Tax is applicable for outside
IITK users)
Mr. Jitendra K Katiyar
Model: Xe7 from Park System South Korea
Isothermal titration calorimeter for direct and label-free quantitative
measurement of binding affinity and thermodynamic parameters of
binding interactions in solution with biomolecules.
Capabilities
Location
ContactProf. Ashis K. Patra
Core Laboratory
Room No. CL-201E
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Recently Registered ProjectsEnergy Dispersive Spectroscopy
Energy Dispersive Spectroscopy (EDS) is a non-destructive method for
identification of elements present in the sample. Elemental Analysis can
be performed over a very small spot on the sample, or a whole frame. This
is a useful tool in the field of Engineering, Chemistry, Geology and Biology
for identification of corresponding metal, metal alloys, minerals and
ceramics.
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Location
ContactProf. Dhirendra S. Katti [Convener]
User Charge
Second Floor, Central Facility
Biological Sciences and
Bioengineering Department (BSBE)
BSBE Users = Rs. 500
IITK Users = Rs. 1000
Non-IITK Users = Rs. 3500
Suman A Gupta [Operator]
SEM Imaging [ 90 min. slot]
BSBE Users = Rs. 250
IITK Users = Rs. 250
Non-IITK Users = Rs. 1000
Gold Coating
Model: Oxford INCA x-act
This instrument is procured to upgrade the system Scanning Electron Microscope (Carl Zeiss EVO MA 18)
[procured under the CARE scheme,Financial Year 2010-2011]
EDS Capabilities/Specification
Detector is 10mm Silicon Drift Detector [SDD] incorporated with INCA²
EDS Analysis Software with features of Spectral imaging, Elemental
mapping, MnKα resolution down to 127eV, Liquid Nitrogen free operation,
Quant Optimization by Standard Cobalt sample 99.995% [metal basis].
� Scanning Electron Microscopy (SEM) – Secondary Electron imaging
useful for surface morphology studies.
� Variable Pressure Scanning Electron Microscopy (VP-SEM) –
� Possible analysis and imaging of non-coated, non-conductive
materials with minimal local surface charging
� Possible analysis of vacuum sensitive materials, such as moist,
hydrated, or out-gassing samples
� Backscattered Electron Imaging – BSE Imaging provides image contrast
and is suitable for obtaining surface topography and different elemental
composition.
� Energy-dispersive X-ray Spectroscopy – EDS Analysis ideal for qualitative
analysis and spectral mapping during SEM analysis.
�Metal Coating of Sputtered Gold/Palladium for SEM Imaging
Services
Photograph showing an Energy
Dispersive X-ray Spectroscope
(EDS) (top) procured under CARE-
2013 scheme as part of the E-SEM
facility (left) at BSBE Department
(Service Tax is applicable for outside
IITK users)
Energy Dispersive X ray Spectroscope (EDS)
Non-Contact Optical Profilometer
Important features of non-contact profilometer are:
� Green Light Source as standard (high resolution imaging) + White
Light Interferometry.
� Spatial Sampling of 40 nm. Up to 0.3 - 0.5 μm lateral resolution
�Objectives of 50X + 2X Zoom lens + High Resolution Camera (1280 X
960 pixels).
�Maintains the same pixels to provide high resolution images even at
high magnification.
� Can work in both phase-shift mode and vertical-shift mode.
� Advanced software included to stitch images into large collage.
� Can work in very wide environment conditions.
Surface Potential Microscope
This is a high resolution and one of the best multimode AFMs by Bruker. It is
an industry-leading AFM microscopes, provides the highest levels of
performance, flexibility and productivity and incorporate the very latest
advances in atomic force microscopy techniques ( including the proprietary
Peak Force Tapping, technologies of PeakForce QNM, PeakForce KPFM,
ScanAsyst and various other modes) to enable the widest array of
application areas.
The model is Multi Mode, 8 whose details can be found on
http://www.bruker.com/products/surface-analysis/atomic-force-
microscopy/multimode-8/overview.html
Location
ContactProf. Animangsu Ghatak
User Charge
Lab No. 104
Northern Lab II
Rs. 2000 (for CHE Department)
Rs. 3000 (for all other Department
across IITK)
Mr. Santosh Rathore
Location
ContactProf. Kantesh Balani
Advanced Center for
Materials Science (ACMS)
Mr. Kamlesh Thapliyal
Model: Bruker GT-KO
(per one hour slot)
Profilometry renders information about the surface features and
topography of the surface. In conventional contact mode profiling, a
mechanical stylus comes in contact with the surface to trace the surface
features, which is time consuming method and tends to alter/damage the
surface features. On contrary, non-contact optical profilometer is able to
trace the surface topography and quantify the roughness without damaging
the actual surface features. It utilizes optical light interference principles to
scan and quantify topographic features of various materials ranging from
hard ceramics/metals to soft polymers or biological cells.
Model: Bruker Multimode 8 AFM (Atomic Force Microscopy)
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Facility for Transgenesis of Multiple Model Organisms
The acquired facility integrates two platforms which together makes
transgenesis (genetic manipulation) in fish and mice feasible: namely,
� a setup for in vivo manipulation (a set of high-end stereo binocular
microscopes with fluorescence and imaging accessories) and
� post-transgenesis care and rearing of genetically modified organisms.
The items under component (1) is a set of three stereo-binocular
microscope while those under component (2) includes set up for
(a) aquaculture with sanitized, temperature- and oxygen-regulated
circulated water system and culture tanks for Zebrafish and (b) individually-
ventilated caging system for post-operative sterile housing of the
transgenic animals.
Location
Contact
Prof. Amitabha Bandyopadhyay
First Floor,
BSBE (Biological Sciences &
Bioengineering) Building
Prof. Pradip Sinha
Transgenic techniques have revolutionized biological science research. This technique allows scientists to introduce
or eliminate a gene of choice from an organism to interrogate the role of the gene in the physiology of the animal.
BSBE department had infrastructure to conduct such experiments in worms, flies and birds but not in fish or mice.
The equipments obtained through the CARE proposal (2012-13) lays the foundation to eventually achieve these.
Mouse Facility
Basement,
BSBE (Biological Sciences &
Bioengineering) Building
Zebra Fish Facility
Mouse Facility
Zebra Fish Facility
P h o to g ra p h s h o w i n g t h e
individually ventilated cage
system ventilatorand the
installed in the BSBE laboratory
to house transgenic mice
Femtosecond TransientAbsorption Spectrometer
The machine is capable to detect transient species in a chemical reaction.Location
ContactProf. Pratik Sen
User Charge
Core Laboratory
Room No. 101A
Free
Femtosecond Laser based BeamDelivery and Scanning System
Location
ContactProf. R. Vijaya
More Info Available @
Southern Laboratory
Room No. 211 (First Floor)
http://www.iitk.ac.in/celt/CELT/
Femtosecond%20Lab/index.html
This is a Beam delivery unit for femtosecond laser based micromachining. It
is capable of machining objects of micron dimensions in different materials,
specifically meant for optical waveguiding and related optical studies. The
precision of the machining work is dependent on the material, energy of the
laser used and the focusing capabilities of the system.
TA for the machine can be contacted
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Atomic Force MicroscopeMake: Park Systems
Model:XE70
Contact and non-contact modes, Area scan
of 100 m X 100 m, z-range of 10 m,� � �
Minimum feature resolution of 1nm, Liquid
cel l for scanning in l iquids, surface
spectroscopy, with 20X optical microscope,
vibration free table (-K technologies) and
acoustic enclosure. For more details see,
http://www.parkafm.com/product/product
_view.php?gubun=R&id=13
Capabilities
Salient Feature
Large area scanner for scanning over 100 m X 100 m area (maximum) on any surface� �
Location
ContactProf. S. A. Ramakrishna
User Charge
Core Laboratory
Room No - 104B
Rs. 1000 for a Slot (2hours)
with normal tips
Mr. Dheeraj Pratap
Large Scale Centrifugation FacilityModel: Sorvall Lynx 6000 Superspeed
Centrifuge (Floor Model)
Location
ContactHead of Biological Sciences and
Bioengineering Department
Central Facility Room (Ground Floor)
Biological Sciences and
Bioengineering Department (BSBE)
Capabilities
� Large volume of samples i.e 1000
ml x 6 = 6 Liters can be centrifuged
at a time
� Speed Range: 500 -29,000 rpm
�Max RCF: 1,00,605 g
� Temp. range: -20 C to 40 C� �
More Info Available @http://home.iitk.ac.in/~sar
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Anechoic Acoustic ChamberP
rocu
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in th
e F
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Yea
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2013
The term anechoic implies non - echoing or echo-free. An anechoic chamber is a room designed to absorb all sound
reflections. Such chambers are used to characterize noise sources, sound absorbing materials, sound sensors and also
conduct a variety of acoustical experiments requiring free field conditions.
The anechoic chamber at llTK has a cut-off frequency of 200 Hz, and its
noise rejection ratio (with respect to its outside) exceeds 65 dB. The
chamber has a usable volume of 5 m X 5 m X 3 m. llTK is one of the very few
academic institutions in the country to have such a chamber. This chamber
has been designed at IITK, and a supplier from within the country was
used to fabricate it, resulting in significant cost savings.
Dean, Research & Development
Indian Institute of Technology Kanpur
Kanpur 208016
Phone: +91-512-259 7578
Address for Correspondence
www.iitk.ac.in/dord/
Feedback/Suggestions
3rd floor,
Helicopter Building
Location
ContactProf. Nachiketa Tiwari
More Info Available @http://home.iitk.ac.in/~ntiwari
Capabilities
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